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GOM Software certified by PTB and NIST

In order to ensure precise measurement accuracy, both GOM Correlate Professional and GOM Correlate software have been tested and certified by PTB and NIST institutions. The accuracy of the evaluation software is tested by comparing the results from the software with reference results. The GOM software has been placed in Category 1, the category with the smallest measurement deviations.

What´s new

What´s new in the current version of the GOM Software 2018?

Efficient, Process-Based Python Interpreter

Fast and simplified data access for complex scientific calculations with Python, use of free Python libraries in the GOM software.

Open Data Exchange

New additional GOM Software 2018 Features

Online measuring volume

The online measuring volume can be displayed in the GOM Software 2018 to make it easier to position the specimen in the measuring volume optimally.

Enhancements for the ARAMIS Kiosk Interface for material tests

The GOM Software 2018 offers further templates for standardized test methods, such as tensile, bulge and FLC tests. Other repeatable test methods and project templates can be configured freely and integrated into the simplified user interface.

Enhancements for point components

Several point components, for example, from measurements of a test from different directions, can now be combined into one region and used for rigid body motion compensation.

Efficient, process-based Python interpreter

The GOM Software 2018 offers fast and simplified data access for complex scientific computations and enables the import of freely available Python libraries, such as NumPy, SciPy and Matplotlib.

Open data exchange

The CSV and XML export now supports the export of several stages and further elements (for example, sections, curves and coordinate systems) and was further optimized in terms of speed, among others.

Excessive representation of deviations in the 3D view

In addition to the colored deviation representation, deformations, such as bulges and dents, can be visualized excessively and thus more clearly.

The last tutorial gives you a more detailed insight in all reporting options, like updating report pages, working with templates and export of reports.

DownloadGOM Correlate

Evaluation Software for 3D Testing

GOM Correlate is a free digital image correlation (DIC) and evaluation software for materials and component testing and serves as a viewer for data sets from the applications ARAMIS Professional, GOM Correlate Professional, TRITOP Professional and PONTOS Live.

GOM Correlate (Upgrade)

Sample Data

Data sets as learning and for different applications

Component Analysis

This sample project shows a full-field analysis of a 3D component. The aim of this project is to analyze strain and displacement on the component's surface with the approach of digital image correlation (DIC). Further evaluations with sections and points are also implemented to see local effects.

Motion Analysis

This project is an example for a dynamic motion analysis. It gives an overview of employing point components to analyze relative motion and displacement. Inspections like vector fields, the 6DoF evaluation and relative angle changes are included.

Materials Testing

This sample project shows a full field strain analysis of a flat punched hole specimen under uniaxial loading conditions. It demonstrates very local strain effects around the hole which are analyzed on the full surface of the specimen and displayed by sections.

Static Deformation

This project is a static analysis of an automotive plastic part under different loading conditions. For every loading condition, it shows the direction and magnitude of displacements in 3D space. The measuring data is aligned to a CAD model to use the directions of the coordinate system for inspections.

FEM Comparison

This example shows a typical real load case by means of a 3D part. The software is able to perform a full-field analysis even of very small deformations, which forms the basis for dimension checks. The visualization of the strain distribution allows evaluating local effects. The measured values serve for a full-field and quantitative comparison against FE simulation data.